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You searched for: subject:"CDIO"
[movies]MIT16.810IAP05 - MIT OpenCourseWare
This course provides students with an opportunity to conceive, design and implement a product, using rapid prototyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototy...
Keywords: engineering design; rapid prototyping; manufacturing; testing; system components; complex structural parts; hand sketching; CAD; CAD modeling; CAE; CAE analysis; CAM programming; CNC; CNC machining; computer aided design; computer aided; structual testing; multiobjective design; optimization; computational methods; tools; design process; design competition; active learning; hands-on; human creativity; holistic; solidworks; finite element; FEM; FEM analysis; COSMOS; omax; presentation; CDIO; structural testing
Downloads: 1,298
[movies]MIT 16.810 Engineering Design and Rapid Prototyping, IAP 2007 - MIT OpenCourseWare
This course provides students with an opportunity to conceive, design and implement a product, using rapid prototyping methods and computer-aid tools. The first of two phases challenges each student team to meet a set of design requirements and constraints for a structural component. A course of iteration, fabrication, and validation completes this manual design cycle. During the second phase, each team conducts design optimization using structural analysis software, with their phase one prototy...
Keywords: engineering design; rapid prototyping; manufacturing; testing; system components; complex structural parts; hand sketching; CAD; CAD modeling; CAE; CAE analysis; CAM programming; CNC; CNC machining; computer aided design; computer aided; structual testing; multiobjective design; optimization; computational methods; tools; design process; design competition; active learning; hands-on; human creativity; holistic; solidworks; finite element; FEM; FEM analysis; COSMOS; omax; presentation; CDIO
Downloads: 454
[audio]MIT 16.01 Unified Engineering I, II, III, & IV, Fall 2005 - MIT OpenCourseWare
The basic objective of Unified Engineering is to give a solid understanding of the fundamental disciplines of aerospace engineering, as well as their interrelationships and applications. These disciplines are Materials and Structures (M); Computers and Programming (C); Fluid Mechanics (F); Thermodynamics (T); Propulsion (P); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, the instructors seek to explain the common intellectual threads in these disciplines, a...
Keywords: Unified; Unified Engineering; aerospace; CDIO; C-D-I-O; conceive; design; implement; operate; team; team-based; discipline; materials; structures; materials and structures; computers; programming; computers and programming; fluids; fluid mechanics; thermodynamics; propulsion; signals; systems; signals and systems; systems problems; fundamentals; technical communication; graphical communication; communication; reading; research; experimentation; personal response system; prs; active learning; First law; first law of thermodynamics; thermo-mechanical; energy; energy conversion; aerospace power systems; propulsion systems; aerospace propulsion systems; heat; work; thermal efficiency; forms of energy; energy exchange; processes; heat engines; engines; steady-flow energy equation; energy flow; flows; path-dependence; path-independence; reversibility; irreversibility; state; thermodynamic state; performance; ideal cycle; simple heat engine; cycles; thermal pressures; temperatures; linear static networks; loop method; node method; linear dynamic networks; classical methods; state method
Downloads: 212
[movies]MIT 16.01 Unified Engineering I, II, III, & IV, Fall 2005 - Spring 2006 - MIT OpenCourseWare
The basic objective of Unified Engineering is to give a solid understanding of the fundamental disciplines of aerospace engineering, as well as their interrelationships and applications. These disciplines are Materials and Structures (M); Computers and Programming (C); Fluid Mechanics (F); Thermodynamics (T); Propulsion (P); and Signals and Systems (S). In choosing to teach these subjects in a unified manner, the instructors seek to explain the common intellectual threads in these disciplines, a...
Keywords: Unified; Unified Engineering; aerospace; CDIO; C-D-I-O; conceive; design; implement; operate; team; team-based; discipline; materials; structures; materials and structures; computers; programming; computers and programming; fluids; fluid mechanics; thermodynamics; propulsion; signals; systems; signals and systems; systems problems; fundamentals; technical communication; graphical communication; communication; reading; research; experimentation; personal response system; prs; active learning; First law; first law of thermodynamics; thermo-mechanical; energy; energy conversion; aerospace power systems; propulsion systems; aerospace propulsion systems; heat; work; thermal efficiency; forms of energy; energy exchange; processes; heat engines; engines; steady-flow energy equation; energy flow; flows; path-dependence; path-independence; reversibility; irreversibility; state; thermodynamic state; performance; ideal cycle; simple heat engine; cycles; thermal pressures; temperatures; linear static networks; loop method; node method; linear dynamic networks; classical methods; state method
Downloads: 2,825
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